Liquid purification or separation – Filter – Supported – shaped or superimposed formed mediums
Reexamination Certificate
2001-03-05
2003-02-25
Popovics, Robert (Department: 1724)
Liquid purification or separation
Filter
Supported, shaped or superimposed formed mediums
C210S493300, C210S493500, C264S248000, C264S449000, C264SDIG004, C493S392000, C493S941000
Reexamination Certificate
active
06524479
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention relates to a filter element comprising a folded filter material and a support for the folds of the filter material. The invention further relates to a process for producing a filter element with supported filter medium folds.
German patent no. DE 198 16 238 discloses a plate-shaped filter element, which is provided with a stiffening strip for a filter medium folded into a zigzag shape. This stiffening strip fixes the position of the folds in relation to one another. For this purpose the stiffening strip is designed as a comb provided with a continuous bar and teeth starting from said bar. The teeth serve to receive the folds in form-fit manner. To clamp the folds in a non-positive fit, spring clips are provided, which are formed by adjacent teeth. The bar of the stiffening axis is elastic and flexible in the longitudinal plane formed by the teeth. The stiffening strip has substantially greater resistance against lateral buckling.
This comb, however, due to its teeth and the spring clips formed by the teeth, is a component that is complex and expensive to produce. Furthermore, the teeth must match the folds of the filter element exactly, so that filter elements having different fold heights or fold spacing require a separate comb. Furthermore, the comb, due to its geometry, can only be used for a filter element of a certain length. For filter elements with different lengths, different combs are required.
SUMMARY OF THE INVENTION
It is therefore the object of the invention to provide a filter element with folds and a support for the folds.
Fit is also an object of the invention to provide a fold support member made of a simple, variably usable and inexpensive semi-finished product which nevertheless supports the folds reliably.
These and other objects are achieved in accordance with the invention by providing a filter element for purifying a fluid comprising at least one filter medium having folds defining pleat surfaces, an enclosure member applied to each end face of the folds, and a support for the folds comprising at least one rod which pierces the pleat surfaces of the folds, wherein joints between said at least one rod and the pleat surfaces are sealed.
In accordance with a further aspect of the invention, the objects are achieved by providing a process for producing a filter element in which joints between a pleated filter medium and a support rod piercing pleat surfaces of the filter medium are melting zones in which the rod is melted to the filter medium or the filter medium is melted to the rod, said process comprising placing the filter medium in a pleat folding device having a recess through which the rod pierces the filter medium, passing a rod through the recess to pierce the pleat surfaces of the filter medium, and connecting the rod to a voltage source and passing an electric current through the rod to generate heat and melt the rod to the filter medium or the filter medium to the rod.
The filter element according to the invention is formed by a filter medium provided with folds, a enclosure member arranged at the end faces, and a support for the folds. It is advantageously suited reliably to support the folds by said support, which is made of a simple, variably usable and inexpensive semi-finished product.
The filter medium has folds with fold areas or pleat surfaces and fold heights and end faces that extend at right angles to the folds and represent the course of the folds. The height of the folds can differ in various types of folding. Conceivable, for instance, is a W-shaped folding in which only every second fold has the same height. Other types of folding that partition the filter element, e.g., into segments, can have folds of the same height in one segment and greater or smaller fold heights in an adjacent segment.
The enclosure members are arranged at the end faces and fix the folds along the end faces. To fix the folds, a material is required that will withstand the loads of a fluid flowing through the filter. The enclosure members may, for instance, be made of a thermoplastic synthetic resin or of an elastomer.
The support for the folds may advantageously be formed by a rod, which pierces the surfaces of the pleats of the folds of the filter medium. This creates joints between the rod and the filter medium. By piercing the rod through the pleat surfaces, the folds are held at their fold height at the joints. The folds are axially moveable on the rod. The rod may have any shape and size with respect to its cross sectional area. The rod may further have a smooth or structured surface. Structured surfaces may take the form, for instance, of grooves or elevations extending lengthwise or crosswise to the rod axis and may extend over only a portion of the surface or over the entire surface. The rod cross sectional area may, for example, be square, rectangular, triangular, or hexagonal, while the size of the cross sectional area may be freely selected. It is most advantageously selected as a function of the pleat surface area. If the pleat surface areas are small, the cross sectional area of the rod should be small, if the folds are large, then a rod with a large cross sectional area may be selected. The rod may further be designed to be flexible so that it can follow various curves, e.g., a circle or an arc. The strength of the rod should be selected as a function of the application. If a rigid filter element is required, a high-strength rod should be selected, if a flexible filter element is required, a low-strength rod should be selected. If the filter element requires greater stability than provided by the enclosure member at the end faces and a single rod, several rods may pierce through the filter medium. This increases the stability considerably. This support of the folds, either with a single rod or with several rods, may be used for filter elements of a wide variety of shapes, e.g., rectangular, triangular, round, tapered, cylindrical or oval filter elements.
Since the support member for the folds takes the form of a rod, the rod can be used universally for different fold heights and fold spacings. The rod is moreover an inexpensive semi-finished product, which can be cut to any required length. Unwinding the rod from a coil or spool, for instance, makes it possible to realize a continuous production process to increase economic efficiency. To this end, a device should be provided that cuts the rod at a defined point. Depending on the desired characteristics, the rod may be made, for instance, of metal or synthetic resin material (i.e., plastic).
The filter medium can be filter paper, for example, which may be treated. To prevent undefined tears in the filter medium when pierced by the rod, the filter medium may be provided with a punched hole through which the rod is pushed. The inside contour of this hole may be slightly smaller than the outside contour of the rod, so that the rod fits tightly against the filter medium. If the inside contour of the hole is larger than the outside contour of the rod, a seal may be threaded onto the rod to effect sealing between filter medium and rod.
Other filter media, e.g., fibers with a fiber structure, may be pierced directly by the rod since the rod pushes the fibers aside and the fiber structure fits tightly against the rod.
One advantageous embodiment of the inventive concept is to form the folds into a zigzag shape so that the folds of the filter medium all have the same fold height. In this embodiment the folds always may be pierced at the same height so that each fold receives the same amount of support. In folds with different fold heights, the higher fold is pierced, for instance, in the lower fold region and the lower fold in the upper fold region, which produces variable strengths of the folds.
It is advantageous if the rod pierces the fold height through the center, so that the folds are uniformly supported. Through this central positioning of the rod, the filter medium can offer greater resistance against pulsating flows of fluid, since the folds have the s
Crowell & Moring LLP
Filterwerk Mann & Hummel GmbH
Popovics Robert
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